原位获取新鲜Ag及其SERS活性研究
甘自保, 赵爱武, 张茂峰, 陶文玉, 郭红艳, 王大朋, 李达, 李明, 高倩. 原位获取新鲜Ag及其SERS活性研究[J]. 光散射学报, 2012, 24(3): 234.
GAN Zi-bao, ZHAO Ai-wu, ZHANG Mao-feng, TAO Wen-yu, GUO Hong-yan, WANG Da-peng, LI Da, LI Ming, GAO Qian. In-situ Obtaining of Fresh Ag and Study on Its SERS Activity[J]. The Journal of Light Scattering, 2012, 24(3): 234.
[1] Fleischmann M, Hendra P J, McQuillan A J. Raman spectra of pyridine adsorbed at a silver electrode[J]. Phys Chem Lett, 1974, 26(2): 163-166.
[2] Nie S M, Emory S R. Probing single molecules and single nanoparticles by surface-enhanced Raman scattering[J]. Science, 1997, 275(5303): 1102-1106.
[3] Tian Z Q, Ren B, Wu D W. Surface-enhanced Raman scattering: From noble to transition metals and from rough surfaces to ordered nanostructures[J]. J Phys Chem B, 106(37): 9463-9483.
[4] Lee S J, Morrill A R, Moskovits M. Hot spots in silver nanowire bundles for surface-enhanced Raman spectroscopy[J]. J Am Chem Soc, 2006, 128(7): 2200-2201.
[5] Fang J X, Yi Y, Ding B J, et al. A route to increase the enhancement factor of surface enhanced Raman scattering (SERS) via a high density Ag flower-like pattern[J]. Appl Phys Lett, 2008, 92(13): 131115.
[6] Liu X F, Sun C H, Jiang P. Wafer-scale surface-enhanced Raman scattering substrates with highly reproducible[J]. J Phys Chem C, 2009, 113(33): 14804-14811.
[8] Zhang Q, Li W Y, Xia Y N, et al. Facile synthesis of Ag nanocubes of 30 to 70 nm in edge length with CF3COOAg as a precursor[J]. Chem Eur J, 2010, 2010(16): 10234-10239.
[9] Driskell J D, Shanmukh S,Liu Y J, et al. The use of aligned silver nanorod arrays prepared by oblique angle deposition as surface enhanced Raman scattering substrates[J]. J Phys Chem C, 2008, 112(4): 895-901.
[10] Liu R M, Si M Z, Kang Y P, et al. A simple method for preparation of Ag nanofilm used as active, stable, and biocompatible SERS substrate by using electrostatic self-assembly[J]. J Colloid Interface Sci, 2010, 343: 52-57.
[11] Zhang B, Zhao A W, Wang D P, et al. Synthesis and SERS properties of flowerlike Ag micro-nano structures[J]. Chem J Chin Univ, 2010, 31(8):1491-1495.
[12] Zhang M F, Zhao A W, Gan Z B, et al. Green synthesis of rosettelike silver nanocrystals with textured surface topography and highly efilcient SERS performances[J]. Crst Eng Comm, 2011, DOI: 10.1039/C1CE05105A.
[13] Gong J L, Jiang J H, Liang Y, et al.Synthesis and characterization of surface-enhanced Raman scattering tags with Ag/SiO2 core-shell nanostructures using reverse micelle technology[J]. J Colloid Interface Sci, 2006, 298: 752-756.
[14] Yang C, Xie Y T, Yuen M F, et al. A facile chemical approach for preparing a SERS active silver substrate[J]. Phys Chem Chem. Phys, 2010, 12: 14459-14461.
[15] Wang J, Zhang P, Liu F C, et al. Surface-enhanced resonance Raman study on adorption of cyanine dye onto AgCl colloids[J]. J Phys Chem, 1988, 92(7):1942-1945.
[16] Zhang H G, Liu F C, He T J, et al. Time dependent UV-absorption spectra and surface enhanced Raman scattering of pyridine in AgC1 sol[J]. Spectrochimica Acta Part A, 1995, 51: 1903-1908.
[17] Voikan M, Stokes D L, Vo-Dinh T. A sol–gel derived AgCl photochromic coating on glass for SERS chemical sensor application[J]. Sens Actuators B, 2005, 106: 660-667.
[18] Hu H L, Song W, Ruan W D, et al. Fabrication of one-dimensional ZnO/4-Mpy/Ag assemblies and their spectroscopic studies[J]. J. Colloid Interface Sci., 2010, 344: 251-255.
[19] Song W, Wang Y X, Zhao B. Surface-enhanced Raman scattering of 4-Mercaptopyridine on the surface of TiO2 nanofibers coated with Ag nanoparticles[J]. J Phys Chem C, 2007, 111: 12786-12791.
甘自保, 赵爱武, 张茂峰, 陶文玉, 郭红艳, 王大朋, 李达, 李明, 高倩. 原位获取新鲜Ag及其SERS活性研究[J]. 光散射学报, 2012, 24(3): 234. GAN Zi-bao, ZHAO Ai-wu, ZHANG Mao-feng, TAO Wen-yu, GUO Hong-yan, WANG Da-peng, LI Da, LI Ming, GAO Qian. In-situ Obtaining of Fresh Ag and Study on Its SERS Activity[J]. The Journal of Light Scattering, 2012, 24(3): 234.
PDF全文
